The present disclosure relates generally to sheet product dispensers and more particularly to sheet product dispensers and related methods for automatically loading a roll of sheet product in a dispenser for dispensing therefrom.
Various types of sheet product dispensers are known in the art, including mechanical and automated dispensers configured to allow a user to obtain a length of sheet product from a roll of sheet product disposed within the dispenser. Sheet product dispensers generally are configured to dispense a particular type of sheet product, such as bath tissue, facial tissue, wipes, napkins, or paper towels. Additionally, sheet product dispensers often are configured for use in a certain environment, such as a home, commercial, industrial, or medical environment, taking into account the operating conditions, expected user traffic, and distinct performance requirements. For example, in some medical environments, such as the patient rooms of hospitals or other medical facilities, user traffic at the dispenser may be relatively low, but performance requirements of the dispenser may be great, due at least in part to an increased need for hygienic operation as well as efficiency demands of medical personnel who was their hands frequently.
According to certain configurations, sheet product dispensers may be automated devices configured to rotatably support the roll within the dispenser for dispensing sheet product therefrom. During operation of such dispensers, a dispensing mechanism may advance a length of sheet product out of the dispenser for a user to grasp and separate from the roll, as may be facilitated by a tear bar of the dispenser or a predefined area of weakness, such as a line of perforations, defined in the sheet product. In this manner, during use of the dispenser, the user touches only the sheet product that is removed, while the roll remains protected within the dispenser.
Depending on the frequency of their use, sheet product dispensers may require frequent reloading of sheet product by facility environmental services (EVS) personnel, such as janitorial personnel, in order to meet user demand. For certain dispensers, a new roll of sheet product may be loaded into the dispenser by opening a cover of the dispenser, unsealing a “tail” (i.e., an exposed end portion of the sheet product) of the roll from a remainder of the roll, mounting the roll within the dispenser via roll supports or stub spindles of the dispenser, positioning the unsealed tail adjacent to or in a portion of the dispensing mechanism (such as adjacent to or in an in-running nip) or under a transfer bar, and closing the cover. This process of loading the dispenser may present several shortcomings. In particular, the loading process may be time-consuming and cumbersome for EVS personnel because of the need to manually unseal the tail and position the unsealed tail in a particular manner with respect to the dispensing mechanism or the transfer bar. Moreover, the new roll of sheet product may be exposed to unsanitary conditions and potential contaminants during transport of the roll to the dispenser and/or loading of the roll in the dispenser. For example, the roll often may be removed from a case or other packaging prior to being transported to the dispenser, and thus the roll may come into contact with airborne environmental contaminants. Additionally, EVS personnel may directly handle the roll during transport and/or loading, creating a risk of cross-contamination.
These shortcomings may be particularly significant for dispensers used in certain medical environments, such as the patient rooms of hospitals or other medical facilities. Due to the large number of patient rooms and thus the large number of dispensers in such facilities, the inefficient dispenser loading process may result in a high overall cost of maintaining the dispensers loaded with sheet product as well as user frustration on the part of EVS personnel. Additionally, the risk of exposing new rolls of sheet product to contaminants during transport and/or loading of the rolls may be of great concern in such facilities, where hygienic practices are critical for preventing hospital-acquired infections.
There is thus a desire for improved sheet product dispensers and related methods for loading a roll of sheet product in a dispenser for dispensing therefrom. Such dispensers and methods should address one or more of the shortcomings noted above while also satisfying the performance requirements of the intended operating environment.
In one aspect, a sheet product dispenser for dispensing sheet product from a roll of sheet product having a sealed tail is provided. The sheet product dispenser includes a roll interface configured to engage and at least partially support the roll of sheet product, the roll interface including a separating member configured to engage and unseal the sealed tail; a feed roller assembly configured to dispense sheet product from the roll of sheet product, the feed roller assembly including a feed roller configured to engage and at least partially support the roll of sheet product; and a controller operable to initiate driving of the feed roller and rotation of the roll of sheet product such that the sealed tail is unsealed by engaging the separating member.
In another aspect, a method of automatically loading a roll of sheet product having a sealed tail in a sheet product dispenser is provided, including placing the roll of sheet product in the dispenser such that the roll of sheet product rests on and is substantially supported by a dispensing mechanism and a roll interface, and rotating a feed roller of the dispensing mechanism to unseal the sealed tail and direct the unsealed tail into the dispensing mechanism via a separating member of the roll interface.
In another aspect, a method of automatically loading a roll of sheet product having a sealed tail in a sheet product dispenser is provided. The method includes the steps of engaging the roll of sheet product with a roll interface and a feed roller of the sheet product dispenser; initiating driving of the feed roller and rotation of the roll of sheet product; and unsealing the sealed tail by rotating the roll of sheet product such that the sealed tail engages a separating member of the roll interface.
In yet another aspect, a sheet product dispenser system for dispensing sheet product from a roll of sheet product having a sealed tail is provided. The sheet product dispenser system includes a cartridge configured to contain the roll of sheet product therein, at least one of the cartridge and the sheet product dispenser comprising a separating member configured to engage and unseal the sealed tail. The sheet product dispenser system also includes a sheet product dispenser including a cartridge interface configured to engage and support the cartridge; a feed roller assembly configured to dispense sheet product from the roll of sheet product, the feed roller assembly including a feed roller configured to engage and at least partially support the roll of sheet product; and a controller operable to initiate driving of the feed roller and rotation of the roll of sheet product such that the sealed tail is unsealed by engaging the separating member.
In another aspect, a method of automatically loading a roll of sheet product having a sealed tail in a sheet product dispenser is provided. The method includes the steps of engaging a cartridge containing the roll of sheet product with a cartridge interface of the sheet product dispenser; engaging the roll of sheet product with a roll interface of the cartridge and a feed roller of the sheet product dispenser; initiating driving of the feed roller and rotation of the roll of sheet product; and unsealing the sealed tail by rotating the roll of sheet product such that the sealed tail engages a separating member of the roll interface.
These and other aspects and improvements of the present disclosure will become apparent to one of ordinary skill in the art upon review of the following detailed description when taken in conjunction with the several drawings and the appended claims.
The detailed description is set forth with reference to the accompanying drawings illustrating examples of the disclosure, in which use of the same reference numerals indicates similar or identical items. Certain embodiments of the present disclosure may include elements, components, and/or configurations other than those illustrated in the drawings, and some of the elements, components, and/or configurations illustrated in the drawings may not be present in certain embodiments.
As described above, existing sheet product dispensers and related methods for loading a roll of sheet product in a dispenser may present several shortcomings. In particular, the process of loading a new roll in such dispensers may require EVS personnel to carry out the time-consuming and cumbersome steps of manually unsealing a tail of the roll and positioning the unsealed tail in a particular manner with respect to the dispensing mechanism or the transfer bar. Moreover, such methods may allow the new roll to be exposed to unsanitary conditions and potential contaminants during transport of the roll to the dispenser and/or loading of the roll in the dispenser. These shortcomings ultimately may result in a high overall cost of maintaining the dispensers, user frustration on the part of EVS personnel, and a risk of contaminating the sheet product with germs that may be passed along to end users of the dispensers.
The sheet product dispensers and related methods provided herein for loading a roll of sheet product in a dispenser have been developed to address one or more of the shortcomings noted above. Such dispensers advantageously may simplify the process of loading a new roll by automatically unsealing a sealed tail of the roll and feeding the unsealed tail through a dispensing mechanism, thereby reducing the time and effort required on the part of EVS personnel. Additionally, such methods may minimize exposure of the new roll to unsanitary conditions and potential contaminants during transport of the roll to the dispenser as well as loading of the roll in the dispenser, thereby encouraging hygienic practices. The sheet product dispensers and methods provided herein may be particularly beneficial for use in certain medical environments, such as the patient rooms of hospitals or other medical facilities, where loading efficiency and hygienic operation are critical.
The present disclosure includes non-limiting embodiments of sheet product dispensers and related methods for loading a roll of sheet product in a dispenser, which simplify the process of loading a new roll and/or minimize exposure of the new roll to unsanitary conditions and potential contaminants. The embodiments are described in detail herein to enable one of ordinary skill in the art to practice the sheet product dispensers and related methods, although it is to be understood that other embodiments may be utilized and that logical changes may be made without departing from the scope of the disclosure. Reference is made herein to the accompanying drawings illustrating some embodiments of the disclosure, in which use of the same reference numerals indicates similar or identical items. Throughout the disclosure, depending on the context, singular and plural terminology may be used interchangeably.
As used herein, the term “sheet product” is inclusive of natural and/or synthetic cloth or paper sheets. Sheet products may include both woven and non-woven articles. There are a wide variety of non-woven processes for forming sheet products, which can be either wetlaid or drylaid. Examples of non-woven processes include, but are not limited to, hydroentangled (sometimes called “spunlace”), double re-creped (DRC), airlaid, spunbond, carded, papermaking, and melt-blown processes. Further, sheet products may contain fibrous cellulosic materials that may be derived from natural sources, such as wood pulp fibers, as well as other fibrous material characterized by having hydroxyl groups. Examples of sheet products include, but are not limited to, wipes, napkins, tissues, such as bath tissues or facial tissues, towels, such as paper towels, and other fibrous, film, polymer, or filamentary products. In general, sheet products are thin in comparison to their length and width and exhibit a relatively flat planar configuration but are flexible to permit folding, rolling, stacking, and the like. Sheet products may include predefined areas of weakness, such as lines of perforations, extending across their width between individual sheets to facilitate separation or tearing of one or more sheets from a roll or folded arrangement of the sheet product at discrete intervals. The individual sheets may be sized as desired to accommodate particular uses of the sheet product.
As used herein, the term “roll of sheet product” refers to a sheet product formed in a roll by winding layers of the sheet product around one another. Rolls of sheet product may have a generally circular cross-sectional shape, a generally oval cross-sectional shape, or other cross-sectional shapes according to various winding configurations of the layers of sheet product. Rolls of sheet product may be cored or coreless.
The meanings of other terms used herein will be apparent to one of ordinary skill in the art or will become apparent to one of ordinary skill in the art upon review of the detailed description when taken in conjunction with the several drawings and the appended claims.
In some embodiments, the sheet product includes predefined areas of weakness, such as lines of perforations, extending across a width of the sheet product between individual sheets thereof. In this manner, a user may separate one or more sheets from the roll 102 by tearing the sheet product along one of the areas of weakness. In other embodiments, the sheet product includes no predefined areas of weakness, such that the sheet product is formed as a continuous sheet. In this manner, a user may separate a length of sheet product from the roll 102 by tearing the sheet product at any desired location, as may be achieved by an abrupt pulling action and as may be facilitated by a tear bar 158 of the dispenser 100, as described below.
As shown in
As shown in
The housing 120 may include a base or first housing portion 126 configured to attach to a wall or other support surface for mounting the dispenser 100 thereto. For example, the back wall of the base 126 may be attached to a vertical wall, the bottom wall of the base 126 may be attached to a countertop surface, or the top wall of the base 126 may be attached to an under-counter surface. The housing 120 also may include a cover or second housing portion 128 movably connected to the base 126 and configured to move between a closed position for dispensing sheet product, as shown in
As shown in
As shown, the dispenser chassis 140 may include a roll interface 142 configured to engage and at least partially support the roll 102 of sheet product. The roll interface 142 may include a first member 146 (which also may be referred to as a “folding member” for reasons described below) and a second member 148 (which also may be referred to as a “separating member” for reasons described below). The first member 146 and the second member 148 may be spaced apart from one another to define a chassis opening 150 (which also may be referred to as a “roll interface opening”) therebetween. As shown, the chassis opening 150 may extend along a length of the chassis 140 and may be configured to allow a portion of the roll 102 to extend therethrough. The first member 146 may be positioned along a back portion of the chassis 140, and the second member 148 may be positioned along a front portion of the chassis 140, as shown. In this manner, the first member 146 may be configured to engage a back, lower portion of the roll 102, and the second member 148 may be configured to engage a front, lower portion of the roll 102 when the roll 102 extends through the chassis opening 150. In some embodiments, as described in more detail below, the roll interface 142 includes only one of the first member 146 and the second member 148.
As shown, the first member 146 may have an elongated shape including a first edge 152 extending along the back of the chassis opening 150 and configured to engage the back, lower portion of the roll 102. In a similar manner, the second member 148 may have an elongated shape including a second edge 154 extending along the front of the chassis opening 150 and configured to engage the front, lower portion of the roll 102. For example, the first member 146 and the second member 148 may be shaped as blades. One or both of the first edge 152 and the second edge 154 may be a sharp edge. Alternatively, one or both of the first edge 152 and the second edge 154 may be rounded, serrated, knurled, textured, or otherwise shaped to enhance friction between the respective portion of the roll 102 and the first member 146 or the second member 148. In some embodiments, as shown in
In some embodiments, the first member 146 and the second member 148 are formed separately from and attached to a frame 156 of the dispenser chassis 140. The first member 146 and the second member 148 may be attached to the frame 156 via one or more mechanical fasteners, such as screws, bolts and nuts, or rivets, or one or more glues, adhesives, or bonding agents. Accordingly, the first member 146 and the second member 148 may be replaceable. In other embodiments, as shown, the first member 146 and the second member 148 are integrally formed with the frame 156 of the dispenser chassis 140. Although the roll interface 142 is described above as being part of the dispenser chassis 140, the roll interface 142 alternatively may be part of the housing 120 or may be a separate component or sub-assembly of the dispenser 100.
As shown in
As shown in
As shown, the feed roller 164 may be disposed below the chassis opening 150 and configured to engage and at least partially support the bottom portion of the roll 102 of sheet product. In this manner, the first member 146, the second member 148, and the feed roller 164 may collectively form a cradle for receiving and supporting the roll 102. Thus, the roll interface 142 may engage and at least partially support the roll 102 by directly contacting the roll 102 and supporting at least a portion of the weight of the roll 102. Similarly, as discussed in more detail below, at least a portion of the feed roller assembly 162 may also directly contact the roll 102 and may support at least a portion of the weight of the roll 102. In some embodiments, the feed roller assembly engages and supports the roll via the drive roller 164. For example, an outermost surface of the drive roller 164 may abut and directly contact an outermost surface of the roll 102, such as along a lower portion of the roll 102 and an upper portion of the drive roller 164. In some embodiments, substantially all of the weight of the roll 102 is supported by one or both of the roll interface 142 and the feed roller assembly 162, eliminating the need for roll supports or other structures in the dispenser or cartridges for suspending or otherwise supporting the weight of the roll 102.
In embodiments, the first member, second member, and feed roller together support all or a substantial portion of the weight of the roll of sheet product. Thus, the roll may be loaded by merely placing it on the roll interface such that it comes into contact with the members and feed roller. This drop and load feature eliminates the need to load the roll onto roll holders.
In some embodiments, the dispenser 100 may include other means for at least partially supporting the roll 102 of sheet product, either in addition to or instead of the roll interface 142. For example, the dispenser 100 may include one or more roll holders associated with the housing 120 and configured to at least partially support the roll 102 about the central opening 104 thereof. Alternatively, the roll 102 may be at least partially supported by one or more roll holders associated with a wall external to the dispenser 100. In some embodiments, as shown, the roll 102 is not supported at all by a roll holder about the central opening 104 of the roll 102. The foregoing embodiments are merely illustrative, as other configurations for supporting the roll 102 are possible.
The dispensing mechanism 160 may include a motor 174 in operable communication with the feed roller 164 and configured to selectively drive the feed roller 164. In particular, the motor 174 may be in communication with the feed roller 164 via one or more gears 176. The motor 174 also may be in operable communication with a controller 178 of the dispenser 100, which may be configured to selectively activate the motor 174.
In some embodiments, the controller 178 is in operable communication with a roll sensor 180 configured to detect initial engagement between the roll interface 142 and the roll 102. Based on this configuration, the controller 178 may be operable to activate the motor 174, thereby initiating driving of the feed roller 164, in response to the roll interface 142 initially engaging the roll 102 as detected by the roll sensor 180. The roll sensor 180 may be a proximity sensor, a pressure sensor, or other type of sensor configured to detect initial placement of the roll 102 on the roll interface 142. In some embodiments, the dispenser 100 does not include a roll sensor 180.
In some embodiments, the controller 178 is in operable communication with an input device 182 configured to be directly manually activated, such as by EVS personnel. Based on this configuration, the controller 178 may be operable to activate the motor 174, thereby initiating driving of the feed roller 164, in response to manual activation of the input device 182. The input device 182 may be a button, a switch, or other type of device configured to be directly manually activated. The controller 178 may also be in operable communication with a proximity sensor 186 configured to detect the presence of a user's hand proximate the dispenser 100. Based on this configuration, the controller 178 may be operable to activate the motor 174, thereby initiating driving of the feed roller 164, in response to placement of a user's hand proximate the dispenser 100 as detected by the user proximity sensor 186. In some embodiments, the dispenser 100 includes the input device or proximity sensor in addition to the roll sensor 180. In some embodiments, the dispenser does not include an input device.
In some embodiments, the controller 178 is in operable communication with a cover switch 184 configured to be activated by closing of the cover 128 (i.e., movement of the cover 128 from the open position to the closed position). In this manner, the cover switch 184 may be indirectly manually activated by EVS personnel closing the cover 128 which in turn engages the cover switch 184. Based on this configuration, the controller 178 may be operable to activate the motor 174, thereby initiating driving of the feed roller 164, in response to activation of the cover switch 184. Although the cover switch 184 is shown positioned about a top, left portion of the housing 120, other positions of the cover switch 184 are possible. In some embodiments, the dispenser 100 includes the cover switch 184 in addition to the roll sensor 180 and/or the input device 182. In some embodiments, the dispenser does not include a cover switch 184.
In some embodiments, a method of automatically loading a roll of sheet product having a sealed tail in a sheet product dispenser includes placing the roll of sheet product in the dispenser such that the roll of sheet product rests on and is substantially supported by a dispensing mechanism and a roll interface, and rotating a feed roller of the dispensing mechanism to unseal the sealed tail and direct the unsealed tail into the dispensing mechanism via a separating member of the roll interface.
As noted above, the dispenser 100 is configured to automatically load the roll 102 of sheet product when the roll 102 is placed therein. A method for automatically loading the roll 102 in the dispenser 100 may begin by moving the cover 128 to the open position and placing the roll 102 of sheet product within the interior space 122 of the dispenser 100. As shown in
Upon placing the roll 102 within the interior space 122, the roll 102 may be received within and supported by the cradle formed by the roll interface 142 and the feed roller 164, as shown. In some embodiments, in response to the roll interface 142 initially engaging the roll 102, the dispenser 100 may rotate the roll 102 (in the counter-clockwise direction according to the view of
Upon rotation of the roll 102 of sheet product, the free distal end 112 of the sealed tail 108 may engage the second member 148, in particular the second edge 154 thereof, which may cause the free distal end 112 of the sealed tail 108 to be unsealed. Alternatively, upon rotation of the roll 102 of sheet product, the free distal end 112 of the sealed tail 108 may engage the first member 146, in particular the first edge 152 thereof, which may cause the free distal end 112 of the sealed tail 108 to be folded over. In such embodiments, the first edge 152 may fold the free distal end 112 of the tail 108 at least partially back over the sealed region 110. Upon further rotation of the roll 102, the sealed region 110 of the sealed tail 108 may engage the second member 148, in particular the second edge 154 thereof, which may cause the sealed tail 108 to unseal from the remainder of the roll 102. Specifically, the second edge 154 may unseal the sealed region 110, thereby separating the tail 108 from the adjacent layer of sheet product. Upon further rotation of the roll 102, the second member 148, in particular the second edge 154 thereof, may direct the unsealed tail 108 downward into the feed roller assembly 162. Specifically, the second member 148 may direct the unsealed tail 108 into the first nip 168. The controller 178 may continue to drive the feed roller 164 via the motor 174 such that the unsealed tail 108 is fed through the feed roller assembly 162 and out of the dispenser opening 124, as shown in
Dispensing of a length of the sheet product from the roll 102 for an end user may be carried out in a conventional manner. Specifically, in response to placement of a user's hand proximate the dispenser 100 as detected by the user proximity sensor 186, the controller 178 may activate the motor 174, thereby driving the feed roller 164 and advancing a length of the sheet product out of the dispenser opening 124 for the user to grasp and remove from the roll 102. In some embodiments, other means of activating the motor 174 may be used. In some embodiments, as the outer diameter OD of the roll 102 decreases due to removal of the sheet product, the roll 102 may move to the back side of the feed roller 164, such that the roll 102 disengages the second member 148. In this manner, upon moving to the back side of the feed roller 164, the roll 102 may be supported by only the first member 146 and the feed roller 164. The movement of the roll 102 and disengagement of the second member 148 beneficially may reduce dust generation that otherwise would be caused by the second member 148 constantly scraping against the roll 102 throughout the life of the roll 102. The movement of the roll 102 and disengagement of the second member 148 may be achieved by positioning the feed roller 164 such that the longitudinal axis of the feed roller 164 is offset in front of the longitudinal axis of the roll 102 by a distance D2, as shown. The magnitude of the offset distance D2 may be selected such that the roll 102 disengages the second member 148 after a certain amount of depletion of the roll 102. For example, the offset distance D2 may be selected such that the roll 102 disengages the second member 148 after 1 percent, 5 percent, 10 percent, or 25 percent depletion of the roll 102.
In other embodiments, the roll 102 may be located to the front side of the feed roller 164. This may be caused by placing the roll 102 such that it is supported solely by the feed roller 164 and the second member 148, or by a decrease in the outer diameter OD of the roll 102 and disengagement of the first member 146. The forward location of the roll 102 and/or disengagement of the first member 146 beneficially may reduce dust generation that otherwise would be caused by the first member 146 constantly scraping against the roll 102 throughout the life of the roll 102. The forward location of the roll 102 and/or disengagement of the first member 146 may be achieved by positioning the feed roller 164 such that the longitudinal axis of the feed roller 164 is offset from the longitudinal axis of the roll 102 by a distance in back of the longitudinal axis of the roll 102. In this manner, according to such embodiments, the feed roller 164 would offset from the longitudinal axis of the roll 102 in an opposite manner as compared to that shown in
The sheet product dispenser 100 and method for automatically loading the roll 102 in the dispenser 100 advantageously may simplify the loading process as compared to existing dispensers and methods. In particular, the dispenser 100 and method may reduce the time and effort required on the part of EVS personnel by eliminating the need to manually unseal the sealed tail 108 and position the unsealed tail 108 in a particular manner with respect to the dispensing mechanism 160. As described above, these steps may be performed automatically by the dispenser 100 either upon the roll interface 142 initially engaging the roll 102, upon manual activation of the input device 182, activation of a proximity sensor, or upon activation of the cover switch 184.
In some embodiments, as shown, the wrapper 204 includes one or more flaps 206 that are folded over and sealed to adjacent portions of the wrapper 204, such that the wrapper 204 completely encloses the roll 102. The flaps 206 may be sealed to the adjacent portions of the wrapper 204 by a heat seal or by a glue, adhesive, or other bonding agent. The flaps 206 may extend along an end surface of the roll 102, as shown. In some embodiments, the wrapper 204 includes one or more flaps 206 extending along one end surface of the roll 102 and one or more flaps 206 extending along the other end surface of the roll 102. Alternatively, the flaps 206 may extend along the outer circumferential surface of the roll 102. The flaps 206 may be unsealed from the adjacent portions of the wrapper 204 by grasping the flaps 206 and applying a separating force thereto. Alternatively, the flaps 206 may be unsealed by grasping another portion of the wrapper 204, such as the outer circumferential surface thereof, and moving that portion with respect to the roll 102.
In some embodiments, either instead of or in addition to the flaps 206, the wrapper 204 includes one or more predefined areas of weakness 210, such as lines of perforations, extending along a portion of the wrapper 204. For example, the wrapper 204 may include a line of perforations along the edge at the intersection of one of the end surfaces of the roll 102 and the outer circumferential surface of the roll 102. Alternatively, the wrapper 204 may include a line of perforations along the length or the circumference of the outer circumferential surface of the roll 102. Adjacent portions of the wrapper 204 may be separated from one another by grasping one of the portions and applying a separating force thereto until the predefined areas of weakness 210 are broken. In some embodiments, the wrapper 204 may include a tab configured to be grasped and pulled by a user to facilitate separation of portions of the wrapper 204. For example, the tab may be configured in a manner similar to a chewing gum wrapper tab that extends away from the wrapper 204 and is easily accessible.
The wrapped roll 200 may be transported to the dispenser 100, and the wrapper 204 may be removed from the roll 102 immediately prior to placing the roll 102 in the dispenser 100. In some embodiments, removing the wrapper 204 from the roll 102 may include unsealing one or more flaps 206 of the wrapper 204. In some embodiments, removing the wrapper 204 from the roll 102 may include breaking one or more predefined areas of weakness 210 of the wrapper 204. After removal of the wrapper 204, the roll 102 may be placed into the dispenser 100 and automatically loaded therein according to the method described above.
The wrapped roll 200 advantageously may minimize exposure of the roll 102 to unsanitary conditions and potential contaminants during shipping, storage, and transport of the roll 102 to the dispenser 100. Additionally, the wrapped roll 200 may reduce the risk of cross-contamination, as EVS personnel may handle the roll 102 indirectly via the wrapper 204. In this manner, the wrapped roll 200 may encourage hygienic practices, which may be particularly beneficial in medical environments.
As shown, the wrapper 304 may include one or more flaps 306, which may be configured in a manner similar to the flaps 206 described above. The wrapper 304 also may include a tabbed portion 308 and one or more predefined areas of weakness 310, such as lines of perforations, extending along one or more edges of the tabbed portion 308. In this manner, the tabbed portion 308 may be attached to an adjacent portion of the wrapper 304 via the predefined areas of weakness. The tabbed portion 308 may be positioned about the circumferential outer surface of the roll 102, as shown. In some embodiments, the tabbed portion 308 has a generally triangular shape including a V-shaped leading edge extending to a tab 312 positioned about a center of the circumferential outer surface of the roll 102. Other suitable shapes of the tabbed portion 308 are possible.
As shown, one or more predefined areas of weakness 310, such as lines of perforations, may extend across the length of the wrapper 304 along the leading edge and the tab 312 of the tabbed portion. Based on this configuration, the tabbed portion 308 may be separated from the adjacent circumferential surface portion of the wrapper 304 by grasping the tab 312 and applying a separating force thereto until the predefined areas of weakness 310 along the tab 312 and the leading edge 312 are broken. One or more predefined areas of weakness 310, such as lines of perforations, also may extend along the circumferential edge at the intersection of one of the end surfaces of the roll 102 and the outer circumferential surface of the roll 102. In some embodiments, such predefined areas of weakness 310 may extend along a majority of the circumferential edge, such as 70 percent, 80 percent, or 90 percent thereof. Based on this configuration, after the tabbed portion 308 is initially separated from the adjacent circumferential surface portion of the wrapper 304, upon continued pulling thereof, the circumferential surface portion of the wrapper 304 may begin to separate from the end faces of the wrapper 304 as the predefined areas of weakness 310 along the circumferential edges are broken. Because the predefined areas of weakness 310 do not extend entirely around the circumferential edges, the end faces of the wrapper 304 may remain connected to the circumferential surface portion of the wrapper 304 after the predefined areas of weakness 310 are broken. In this manner, the entire wrapper 304 may be removed from the roll 102 as an integral unit.
In some embodiments, the tab 312 may be separate from the adjacent portion of the wrapper 304 (i.e., without a predefined area of weakness 310 therebetween) to facilitate grasping of the tab 312 and separation of the tabbed portion 308. In other embodiments, the tab 312 and the adjacent portion of the wrapper 304 may be connected by a predefined area of weakness 310 therebetween, and the wrapper 304 may include a label 314 positioned on the tab 312, as shown, to facilitate pulling of the tab 312. A leading end portion of the label 314, such as a leading half of the label 314, may be separate from the tab 312, and a trailing end portion of the label 314, such as a trailing half of the label 314, may be securely attached to the tab 312, for example by a glue, adhesive, or other bonding agent. Based on this configuration, a user may easily grasp and pull the leading end portion of the label 314 to facilitate pulling of the tab 312 and separation of the tab 312.
The wrapped roll 300 and method for loading the wrapped roll 300 in the sheet product dispenser 400 advantageously may minimize exposure of the roll 102 to unsanitary conditions and potential contaminants during shipping, storage, and transport of the roll 102 to the dispenser 400 as well as loading the roll 102 in the dispenser 400. Additionally, the wrapped roll 300 may eliminate the risk of cross-contamination, as EVS personnel may handle the roll 102 only indirectly via the wrapper 304. In this manner, the wrapped roll 300 and method for loading may encourage hygienic practices, which may be particularly beneficial in medical environments.
The wrapped roll 300 and method for loading the wrapped roll 300 in the sheet product dispenser 500 advantageously may eliminate exposure of the roll 102 to unsanitary conditions and potential contaminants during shipping, storage, and transport of the roll 102 to the dispenser 500 as well as loading the roll 102 in the dispenser 500. Additionally, the wrapped roll 300 may eliminate the risk of cross-contamination, as EVS personnel may handle the roll 102 only indirectly via the wrapper 304. In this manner, the wrapped roll 300 and method for loading may encourage hygienic practices, which may be particularly beneficial in medical environments.
The housing 702 may include a removable portion 710 that may be removed from a remainder of the housing 702 to selectively expose the cartridge opening 708 for use of the cartridge 700. In some embodiments, as shown, the removable portion 710 is integrally formed with a remainder of the housing 702, and the housing 702 includes one or more predefined areas of weakness 714, such as lines of perforations, extending along one or more edges of the removable portion 710. The removable portion 710 may be attached to an adjacent portion of the housing 702, such as a remainder of the bottom wall of the housing 702, via the predefined areas of weakness 714. In this manner, the cartridge opening 708 may be defined by the removable portion 710 and may be exposed upon removal of the removable portion 710 by tearing the predefined areas of weakness 714. In other embodiments, the removable portion 710 is separately formed from and attached to a remainder of the housing 702, such that the cartridge opening 708 is covered by the removable portion 710. The removable portion 710 may be attached to an adjacent portion of the housing 702 via a glue, adhesive, or other bonding agent. In this manner, the cartridge opening 708 may be exposed upon removal of the removable portion 710 by peeling or otherwise detaching the removable portion 710 from the adjacent portion of the housing 702.
As shown, the cartridge 700 may include a roll interface 718 configured to engage and at least partially support the roll 102 of sheet product upon removal of the removable portion 710. The roll interface 718 may include a first member 722 (which also may be referred to as a “folding member” for reasons described below) and a second member 724 (which also may be referred to as a “separating member” for reasons described below). The first member 722 and the second member 724 may be spaced apart from one another to define the cartridge opening 708 (which also may be referred to as a “roll interface opening”) therebetween, as exposed upon removal of the removable portion 710. As shown, the cartridge opening 708 may extend along the length of the housing 702 and may be configured to allow a portion of the roll 102 to extend therethrough. The first member 722 may be positioned along a back portion of the housing 702, and the second member 724 may be positioned along a front portion of the housing 702, as shown. In this manner, as shown in
As shown, the first member 722 may have an elongated shape including a first edge 726 extending along the back of the cartridge opening 708 and configured to engage the back, lower portion of the roll 102. In a similar manner, the second member 724 may have an elongated shape including a second edge 728 extending along the front of the cartridge opening 708 and configured to engage the front, lower portion of the roll 102. For example, the first member 722 and the second member 724 may be shaped as blades. In some embodiments, the first member 722 and the second member 724 are part of the housing 702, as shown. In other embodiments, the first member 722 and the second member 724 are formed separately from and attached to the housing 702. For example, the first member 722 and the second member 724 may be attached to the housing 702 by a glue, adhesive, or other bonding agent.
As shown in
The cartridge interface 642 also may include a first support member 646 (which also may be referred to as a “folding member” in some embodiments for reasons described below) and a second support member 648 (which also may be referred to as a “separating member” in some embodiments for reasons described below) that are spaced apart from one another to define a chassis opening 650 (which also may be referred to as a “cartridge interface opening”) therebetween. As shown, the chassis opening 650 may extend along a length of the chassis 640 and may be in communication with the cartridge opening 708. The chassis opening 640 may be configured to allow a portion of the roll 102 to extend therethrough when cartridge 700 engages the cartridge interface 642 and the cartridge opening 708 is exposed. Thus, at least one of the cartridge and the sheet product dispenser include a separating member and/or a folding member configured to engage and unseal the sealed tail. In certain embodiments, both the cartridge and the sheet product dispenser include a separating member and/or a folding member configured to engage and unseal the sealed tail.
The first support member 646 may be positioned along a back portion of the chassis 640, and the second support member 648 may be positioned along a front portion of the chassis 640, as shown. In this manner, the first support member 646 may be configured to engage and support the first member 722 of the cartridge 700, and the second support member 648 may be configured to engage and support the second member 724 of the cartridge 700. As shown in
According to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, the first support member 646 may have an elongated shape including a first edge 652 extending along the back of the chassis opening 650 and configured to engage the back, lower portion of the roll 102, and the second support member 648 may have an elongated shape including a second edge 654 extending along the front of the chassis opening 650 and configured to engage the front, lower portion of the roll 102. For example, the first support member 646 and the second support member 648 may be shaped as blades. One or both of the first edge 652 and the second edge 654 may be a sharp edge. Alternatively, one or both of the first edge 652 and the second edge 654 may be rounded, serrated, knurled, textured, or otherwise shaped to enhance friction between the respective portion of the roll 102 and the first support member 646 or the second support member 648.
As shown, the dispenser chassis 640 may include a dispenser opening 655 defined therein and configured to allow the sheet product to be dispensed therethrough and out of the dispenser 600. As shown, the dispenser opening 655 may be defined in a lower, front portion of a frame 656 of the chassis 640, although other locations of the dispenser opening 655 may be used. The chassis 640 also may include a tear bar 658 positioned about the dispenser opening 655 and configured to facilitate tearing of a length of sheet product from the roll 102. In some embodiments, the tear bar 658 is formed separately from and attached to the frame 656 of the chassis 640. In other embodiments, the tear bar 658 is integrally formed with the frame 656, as shown. During use of the dispenser 600, the sheet product may be directed through the dispenser opening 630 and out of the chassis 640, such that the sheet product may be easily grasped by a user and removed via the tear bar 658. The illustrated tear bar is not intended to be limiting. Rather, the tear bar may be any known tear bar configuration known in the art.
As shown in
As shown, the feed roller 664 may be disposed below the cartridge opening 708 and the chassis opening 650 and configured to engage and at least partially support the bottom portion of the roll 102 of sheet product. In this manner, according to embodiments in which the width of the chassis opening 650 is larger than the width of the cartridge opening 708, the first member 722, the second member 722, and the feed roller 664 may collectively form a cradle for receiving and supporting the roll 102. Alternatively, according to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, the first support member 646, the second support member 648, and the feed roller 664 may collectively form a cradle for receiving and supporting the roll 102. The dispensing mechanism 660 may include a motor 674 in operable communication with the feed roller 664 and configured to selectively drive the feed roller 664. In particular, the motor 674 may be in communication with the feed roller 664 via one or more gears in a manner similar to that shown and described above with respect to dispenser 100. The motor 674 also may be in operable communication with a controller 678 of the dispenser 600, which may be configured to selectively activate the motor 674.
The controller 678 may be in operable communication with a cartridge sensor 680 configured to detect initial engagement between the cartridge interface 642 and the cartridge 700. Based on this configuration, the controller 678 may be operable to activate the motor 674, thereby initiating driving of the feed roller 664, in response to the cartridge interface 642 initially engaging the cartridge 700 as detected by the cartridge sensor 680. The cartridge sensor 680 may be a proximity sensor, a pressure sensor, or other type of sensor configured to detect initial placement of the cartridge 700 on the cartridge interface 642. Additionally or alternatively, the controller 678 may be operable to activate the motor 674, thereby initiating driving of the feed roller 664, in response to manual activation of an input device 682, such as a button or switch, in communication with the controller 678. The controller 678 also may be in operable communication with a user proximity sensor 684 configured to detect the presence of a user's hand proximate the dispenser 600. Based on this configuration, the controller 678 may be operable to activate the motor 674, thereby initiating driving of the feed roller 664, in response to placement of a user's hand proximate the dispenser 600 as detected by the user proximity sensor 684.
As noted above, the dispenser 600 is configured to automatically load the roll 102 of sheet product when the cartridge 700 is placed on the dispenser 600. A method for automatically loading the roll 102 in the dispenser 600 may begin by removing the removable portion 710 of the housing 702 and placing the cartridge 700 on the dispenser 600 such that the cartridge interface 642 engages and supports the cartridge 700. As shown in
According to embodiments in which the width of the chassis opening 650 is larger than the width of the cartridge opening 708, upon placing the cartridge 700 on the dispenser 600, the roll 102 may be received within and supported by the cradle formed by the roll interface 718 and the feed roller 664, as shown. In some embodiments, in response to the cartridge interface 642 initially engaging the cartridge 700, the dispenser 600 may rotate the roll 102 (in the counter-clockwise direction according to the view of
Upon rotation of the roll 102 of sheet product, the free distal end 112 of the sealed tail 108 may engage the second member 724, in particular the second edge 728 thereof, which may cause the free distal end 112 of the sealed tail 108 to be unsealed. Alternatively, upon rotation of the roll 102 of sheet product, the free distal end 112 of the sealed tail 108 may engage the first member 722, in particular the first edge 726 thereof, which may cause the free distal end 112 to be folded over. Specifically, the first edge 726 may fold the free distal end 112 of the sealed tail 108 at least partially back over the sealed region 110. Upon further rotation of the roll 102, the sealed region 110 of the sealed tail 108 may engage the second member 724, in particular the second edge 728 thereof, which may cause the sealed tail 108 to unseal from the remainder of the roll 102. Specifically, the second edge 728 may unseal the sealed region 110, thereby separating the tail 108 from the adjacent layer of sheet product. Notably, use of the first member 722 and the second member 724 of the disposable cartridge 700 to fold over and unseal the tail 108 advantageously may reduce wear on the dispenser 600. Upon further rotation of the roll 102, the second member 724, in particular the second edge 728 thereof, may direct the unsealed tail 108 downward into the feed roller assembly 662. Specifically, the second member 724 may direct the unsealed tail 108 into the first nip 668. The controller 678 may continue to drive the feed roller 664 via the motor 674 such that the tail 108 is fed through the feed roller assembly 662 and out of the dispenser opening 655, as shown in
In a similar manner, according to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, upon placing the cartridge 700 on the dispenser 600, the roll 102 may be received within and supported by the cradle formed by the first support member 646, the second support member 648, and the feed roller 664. The roll 102 may be rotated either in response to the cartridge interface 642 initially engaging the cartridge 700 or in response to manual activation of the input device 682. Upon rotation of the roll 102, the sealed tail 108 may engage the first support member 646, in particular the first edge 652 thereof, which may cause the sealed tail 108 to be folded over. Upon further rotation of the roll 102, the sealed tail 108 may engage the second support member 648, in particular the second edge 654 thereof, which may cause the sealed tail 108 to unseal from the remainder of the roll 102. Upon further rotation of the roll 102, the second support member 648, in particular the second edge 654 thereof, may direct the unsealed tail 108 downward into the feed roller assembly 662. The controller 678 may continue to drive the feed roller 664 via the motor 674 such that the unsealed tail 108 is fed through the feed roller assembly 662 and out of the dispenser opening 655. The extended length of sheet product may be grasped by EVS personnel and removed from the roll 102, such that the dispenser 100 is ready for dispensing the sheet product from the roll 102.
Dispensing of a length of the sheet product from the roll 102 for an end user may be carried out in a conventional manner. Specifically, in response to placement of a user's hand proximate the dispenser 600 as detected by the user proximity sensor 684, the controller 678 may activate the motor 674, thereby driving the feed roller 664 and advancing a length of the sheet product out of the dispenser opening 655 for the user to grasp and remove from the roll 102. In some embodiments, other means of activating the motor 674 may be used. In some embodiments, as the outer diameter OD of the roll 102 decreases due to removal of the sheet product, the roll 102 may move to the back side of the feed roller 664 (and to the back portion of the cartridge 700). According to embodiments in which the width of the chassis opening 650 is larger than the width of the cartridge opening 708, such movement may cause the roll 102 to disengage the second member 724, such that the roll 102 is supported by only the first member 722 and the feed roller 664. According to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, such movement may cause the roll 102 to disengage the second support member 648, such that the roll 102 is supported by only the first support member 646 and the feed roller 664.
The movement of the roll 102 and disengagement of the second member 724 (or the first member 722) or the second support member 648 (or the first support member) (646) beneficially may reduce dust generation that otherwise would be caused by the second member 724 (or the first member 722) or the second support member 648 (or the first support member) constantly scraping against the roll 102 throughout the life of the roll 102. According to embodiments in which the width of the chassis opening 650 is larger than the width of the cartridge opening 708, the movement of the roll 102 and disengagement of the second member 724 may be achieved by positioning the feed roller 664 such that the longitudinal axis of the feed roller 664 is offset from the longitudinal axis of the roll 102 by a distance D3, as shown. In a similar manner, according to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, the movement of the roll 102 and disengagement of the second support member 648 may be achieved by positioning the feed roller 664 such that the longitudinal axis of the feed roller 664 is offset from the longitudinal axis of the roll 102.
In other embodiments, the roll 102 may be located to the front side of the feed roller 664. This may be caused by locating the roll 102 such that it is supported solely by the feed roller 664 and the second member 724, or by a decrease in the outer diameter OD of the roll 102 and disengagement of the first member 722 or first support member 646, depending on the relative widths of the chassis opening and cartridge opening. According to embodiments in which the width of the chassis opening 650 is larger than the width of the cartridge opening 708, such movement may cause the roll 102 to disengage the first member 722, such that the roll 102 is supported by only the second member 724 and the feed roller 664. According to embodiments in which the width of the chassis opening 650 is smaller than the width of the cartridge opening 708, such movement may cause the roll 102 to disengage the first support member 646, such that the roll 102 is supported by only the second support member 648 and the feed roller 664. In some embodiments, the forward location of the roll 102 and/or disengagement of the first member 722 or first support member 646 may be achieved by positioning the feed roller 664 such that the longitudinal axis of the feed roller 664 is offset from the longitudinal axis of the roll 102 by a distance in back of the longitudinal axis of the roll 102. In this manner, according to such embodiments, the feed roller 664 would offset from the longitudinal axis of the roll 102 in an opposite manner as compared to that shown in
The sheet product dispenser 600 and method for automatically loading the roll 102 in the dispenser 600 advantageously may simplify the loading process as compared to existing dispensers and methods. In particular, the dispenser 600 and method may reduce the time and effort required on the part of EVS personnel by eliminating the need to manually unseal the sealed tail 108 and positioning the unsealed tail 108 in a certain manner with respect to the dispensing mechanism 660. As described above, these steps may be performed automatically by the dispenser 600 either upon the cartridge interface 642 initially engaging the cartridge or upon manual activation of the input device 682. Moreover, the cartridge 700 advantageously may minimize exposure of the roll 102 to unsanitary conditions and potential contaminants during shipping, storage, and transport of the cartridge 700 to the dispenser 600 as well as loading the roll 102 in the dispenser 600. Additionally, the cartridge 700 may eliminate the risk of cross-contamination, as EVS personnel may handle the roll 102 only indirectly via the housing 702. In this manner, the dispenser 600, the cartridge 700, and the method for loading may encourage hygienic practices, which may be particularly beneficial in medical environments.
Embodiments of the present disclosure further include any one or more of the following paragraphs:
Although certain embodiments of the disclosure are described herein and shown in the accompanying drawings, one of ordinary skill in the art will recognize that numerous modifications and alternative embodiments are within the scope of the disclosure. Moreover, although certain embodiments of the disclosure are described herein with respect to specific sheet product dispenser configurations, it will be appreciated that numerous other sheet product dispenser configurations are within the scope of the disclosure. Conditional language used herein, such as “can,” “could,” “might,” or “may,” unless specifically stated otherwise, or otherwise understood within the context as used, generally is intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements, or functional capabilities. Thus, such conditional language generally is not intended to imply that certain features, elements, or functional capabilities are in any way required for all embodiments.
This application is a continuation of U.S. application Ser. No. 14/595,683, filed on Jan. 13, 2015, which claims the benefit of U.S. Provisional Application No. 61/926,767, filed on Jan. 13, 2014, and U.S. Provisional Application No. 62/008,897, filed on Jun. 6, 2014, all of which are incorporated herein by reference in their entirety.
Number | Date | Country | |
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61926767 | Jan 2014 | US | |
62008897 | Jun 2014 | US |
Number | Date | Country | |
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Parent | 14595683 | Jan 2015 | US |
Child | 16171721 | US |